Temperature Sensor Circuit

Products & Services

Description:
The newest type of temperaturesensor on the market is the integrated circuit (IC) temperature transducer. IC sensors can be designed to produce either voltage or current output and are extremely linear. IC sensors are a very effective way to produce an

Description:
The AD590 is a 2-terminal integrated circuittemperature trans-ducer that produces an output current proportional to absolute temperature. For supply voltages between 4 V and 30 V, the device acts as a high impedance, constant current regulator passing 1 µA/K. Laser trimming of

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The AD592 is a two terminal monolithic integrated circuittemperature transducer that provides an output current proportional to absolute temperature. For a wide range of supply voltages the transducer acts as a high impedance temperature dependent current source of 1

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The MAX31730 temperaturesensor monitors its own temperature and the temperatures of three external diode-connected transistors. The operating supply voltage is from 3.0V to 3.6V. Resistance cancellation compensates for high series resistance in circuit-board

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Series TSA06 temperaturesensors indicate measured temperatures and provide control signals and analog output signals. Temperature switching points and reset values for the switching functions Ð which can be separately programmed Ð along with a wide measuring range yield

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The MIC284 is a versatile digital thermal supervisor capable of measuring temperature using its own internal sensor and an inexpensive external sensor or embedded silicon diode such as those found in the Intel Pentium III® CPU. A 2-wire serial interface is provided to allow

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The MAX6581 precision multichannel temperaturesensor monitors its own temperature and the temperatures of up to seven external diode-connected transistors. All temperature channels have programmable alert and overtemperature thresholds. When the measured

Description:
MCP9501/2/3/4 family of devices are temperature switches with ±1°C (typical) accurate factory set output thresholds. These devices are ideal for high power supply systems where an overtemperature protection circuit is needed. These devices do not require external components, consume 25

Description:
MCP9501/2/3/4 family of devices are temperature switches with ±1°C (typical) accurate factory set output thresholds. These devices are ideal for high power supply systems where an overtemperature protection circuit is needed. These devices do not require external components, consume

Description:
MCP9501/2/3/4 family of devices are temperature switches with ±1°C (typical) accurate factory set output thresholds. These devices are ideal for high power supply systems where an overtemperature protection circuit is needed. These devices do not require external components, consume 25

Description:
technology that eliminates zero shifts caused by installation torque. The core technology of the XPC10 consists of a foil strain gage wired in a Wheatstone bridge circuit to provide excellent temperature stability. An on-board amplifier is optionally available (A1) for all ranges. A

Description:
BDJxxx0HFV series is a thermostat output temperaturesensor IC with built-in temperature detection element, constant current circuit, and a high-accuracy reference voltage source in one chip. Temperature detection can be realized at ±2.5°C accuracy without the need

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BDJxxx1HFV series is a thermostat output temperaturesensor IC with built-in temperature detection element, constant current circuit, and a high-accuracy reference voltage source in one chip. Temperature detection can be realized at ±2.5°C accuracy without the need

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These high temperaturesensors have an amplifier completely separate from the sensor. This allows the sensor to withstand temperatures from –200 to +250°C (-382 to +482°F). The amplifier is supplied in two different types, models S3624 & S3625, which is

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Design - Can be built from standardized components - Standard lengths for fewer spare parts on stock - Immersion lengths can be selected individually - Sensor can be replaced during operation - No welding seams coming into contact with media .. Technical

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Series 700 Temperature Probes with 3 stripped leads use the 44018 thermistor composite as the linear temperaturesensor. On special order, probes can also be built with 44019 thermistor composite. The purpose of the Series 700 Probes is to provide a complete probe assembly for

Description:
with either an RS-232 digital or analog output. For applications using solar/battery power, an additional solar panel must be provided to run the fan. The RainWise ASPRH/T sensor has a five year guarantee. The temperaturesensor uses a solid state integrated circuit with

Description:
The HRTS is designed to measure surface temperatures from -200 °C to 480 °C [-320 °F to 900 °F] in printed circuit, temperature probe, or other applications. HRTS surface temperaturesensors are fully assembled elements, ready to use, without the need for fragile

Description:
torque trend display is provided for the measurement of viscosity changes and a 1000 Pt RTD temperaturesensor input lets you monitor and display fluid temperature. Mixers also include RS-232 and USB interfaces to control and document all parameters. |Additional control

Description:
torque trend display is provided for the measurement of viscosity changes and a 1000 Pt RTD temperaturesensor input lets you monitor and display fluid temperature. Mixers also include RS-232 and USB interfaces to control and document all parameters. |Additional control

Microchip Technology Inc. provides a number of analog and serial-output Integrated Circuit (IC) temperaturesensors. The typical accuracy of these sensors at room temperature is within one degree Celsius. However, at hot or cold temperature extremes, the accuracy decreases non-linearly. Typically

offers many system-level advantages, including the integration of the sensor and signal-conditioning circuitry in a small Integrated Circuit (IC) package. The MCP9800 also has a One-shot Conversion mode that performs a single temperature measurement and then goes into power-saving Shutdown mode

advantages, including the integration of the sensor and signal conditioning circuitry in a small integrated circuit (IC) package. The TC72 also has an One-shot Conversion mode, which performs a single temperature measurement and then goes into power-saving Shutdown mode. The One-shot Conversion mode

A RTD or Resistance Temperature Detector is a passive circuit element whose resistance increases with increasing temperature in a predictable manner. In choosing one you must consider a RTDs temperature coefficient of resistance (TCR), its relative sensitivity, its accuracy and repeatability

and faster system clock rates. More advanced architectures result in a greater amount of circuitry on-chip. Higher system clock rates cause chips to run hotter (primarily because of energy losses from parasitic circuit effects). As a result, thermal problems arise from a larger amount of circuitry

This application note shows how to select a temperaturesensor and conditioning circuit to maximize the measurement accuracy and simplify the interface to the microcontroller. Practical circuits and interface techniques will be provided for embedded applications with thermocouples, Resistive

This application note shows how to design a temperaturesensor oscillator circuit using Microchip's low-cost MCP6001 operational amplifier (op amp) and the MCP6541 comparator. Oscillator circuits can be used to provide an accurate temperature measurement with a Resistive Temperature Detector (RTD